Billion-dollar buyout of Big Green? Will a tech company with digital security/smart-gun technology take over Remington Outdoor Company? This is either the biggest business story of the year in the gun industry, or much ado about nothing — simply a publicity stunt by Global Digital Solutions, Inc. (GDSI).

Here’s the background. On March 11, 2014, GDSI announced that it was offering to acquire Remington Outdoor Company (previously known as Freedom Group), for $1.082 billion in cash plus shares of GDSI common stock. In connection with this offer, GDSI filed a Form 8-K with the SEC regarding three proposed transactions, including an unsolicited letter of intent to acquire Remington Outdoor Company, Inc. (Remington). The Form 8-K can viewed on the GDSE website.

Despite the Form 8-K filing, some observers believe that the GDSI buy-out offer is nothing more than a publicity stunt. According to the Shooting Wire, “Executives with Remington Outdoor Company (Remington) have described yesterday’s … announcement of plans by Global Digital Solutions to acquire Remington as ‘attention seeking in its worst form’.” That doesn’t sound like Remington is giving much credence to the $1.082 billion buy-out offer.

Is this for real? Will a company that has developed RFID tags and “smart-gun” technology acquire Remington, and related brands Bushmaster, DPMS, Marlin, H&R, AAC, Dakota Arms, Para USA and Barnes Bullets? What’s in it for GDSI? For one thing, Remington is generating a lot of cash right now. Remington Outdoor Company has estimated that its net sales for 2013 will be in the range of $1.250 billion to $1.275 billion and that its adjusted EBITDA will be in the range of $235 million to $240 million.

Richard Sullivan, CEO of GDSI, declared there are “powerful synergies” between Remington’s core businesses and the technologies GDSI has developed such as RFID tags and GPS tracking units. As reported on the CNN Money website, Sullivan said that “cyber-based technologies, coupled with enhanced digital product development” will be increasingly important to the military armament industry. That industry, Sullivan added, is “evolving rapidly toward a RFID/WiFi-enabled technology platform.” Remington is ripe for a high-tech overhaul, Sullivan believes: “In this dynamic environment, we see enormous opportunity to consolidate this market with a program of targeted acquisitions, including the proposed Freedom [Remington] transaction. Technological convergence is the future in the cyber/smart arms arena and we’re eager to leverage our proven history of success by helping Freedom and others navigate the transition from analog to digital.”

NRA Media recently released a series of informative videos about the Science of Shooting. These videos feature high production values, with super-slow motion segments, as well as helpful computer graphics to illustrate the principles covered.

The videos are narrated by our friend Jessie Duff, a top action pistol shooter (and the first women ever to achieve USPSA Grand Master status). Jessie is assisted by talented shooters such as Top Shot Season 4 Champion Chris Cheng.

There are eight (8) videos in the Firearm Science Video Series. Here are two videos, with links to the rest below.

RECOIL — The Physics of Recoil Explained

While this video focuses on handguns, the principles involved apply to all firearms. The force of recoil is affected by the mass of the firearm, and by the speed and weight of the projectile. On a revolver, as shown in the video, there are various phases of recoil. Grip, and “compensation” porting can change the perceived force of recoil (though the energy is constant for any given ammunition specification).

VELOCITY — Calculating the Speed of a Bullet

This video shows a conventional chronograph with front and rear light sensors. The bullet first trips the front sensor and then the rear sensor as it flies over the unit. The difference in sensor time is used to calculate bullet speed. This is not the only kind of chrono in common use today. The popular MagnetoSpeed chrono works by tracking the bullet as it passes over two magnetic sensors mounted on a bayonet-style fixture on the barrel. Steinert Sensing Systems offers an Acoustic Chronograph that works by measuring the bullet’s supersonic shock-wave. This system has a much larger “sweet spot” than most optical chronographs. Last (but certainly not least) is the brand new Doppler Radar chronograph from MyLabradar.com. This can measure the speed of a bullet without the need to send the round directly over sensors.

Interestingly, this video also explains how, in the days before electric lamps, digital processors, and radar, scientists used a mechanical “Ballistic Pendulum” to calculate bullet velocity using Newtonian physics. The Ballistic Pendulum was first used in the mid 1700s. We have come a long way since then.